Food processor



March 31 1942- A. STRAUSS arm.

FO 0D PROCESSOR Filed Jan. 3,-1940 ll Sheets-Sheet l March 31, 1942.-

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I FOOD PROCES SOR Filed Jan. 8, 1940 11 Sheets-Sheet l0 March 31, 1942. A, SS E 2,278,187

FOOD PROCESSOR Filed Jan. 8, 1940 11 Sheets-Sheet l1 Z GFMna/z housing is encountered for this purpose.

Patented Mar. 31, 1942 FOOD PROCESSOR Alfred Straussand Eric G. ,Feltman, Chicago, Melville M. Hunt, Park Ridge, and Watson D. Harbaugh, Chicago, 111.", assignors to A. F. Dormeyer Mfg. 00., a corporation of Illinois Application January 8, 1940, Serial No. 312,874

13'- Claims. 191. 259-13) The present invention relates to food processing devices and more particularly to food mixers, liquifiers and juice extractors.

It has been the practice to build food processing devices of the class described with the motorcasing and the beater and beater drive assembly fashioned as a single unit. Although thishas many advantages evidenced almost without exception, by the many mixers upon the market, the advantage of lifting the motor from the standard for mixing food at a point remote from the mixer base, entails the lifting and handling of a heavy article which is Very tiresome. In the present invention only the weight of the gear The gear casing can be separated as a unit from the heavy motor parts and constitutes the only, part that has to be lifted and handled for remote mix- In accomplishing this, we prefer to provide a detachable flexible drive interconnecting the motor and the movable part. By providing the detachable drive, other tools, such as wood carvers, buffers, silver polisher and grinding wheels may be substituted for the heaters upon the beater gear housing or be connected directly to the flexible drive without the housing and other types of food processing units can be driven direct from the motor interchangeably with the housing and the flexible drive. In such instances supports may be provided for the tools or gear housing if they are to be stationary, and, if not,

the selected tools may be suitably conformed so In some conventional constructions the bowl is moved manually upon the base in a way regulatingthe whirling of the bowl by lessening the degree of reactance of the propelled mixture 3 against the bowl side but this requires the use of a hand when a housewife may need both hands for other tasks and has not been entirely satisfactory, movement of a turntable from one position to another for the purpose of utilizing bowls of'different sizes being something else.

In the present invention, we provide a means for automatically reciprocating the heaters in a bowl from one side of the bowl to the other continuously through any adjusted distance at a slow rate, whereby the bowl will be rotated several turns in one direction and before it has a chance to attain a dangerous speed, move the heaters near the other side for a brief period and cause the bowl to rotate in the opposite direction, in the meantime passing the heaters back and forth over the center of the bowl to remove any collection of unmixed ingredients that generally collect at the center of large bowls outside of the sweep of revolving fixed heaters.

Moreover, very often the motor would not be turned off when the heaters were raised. As a result, the mixture clinging to the heaters would he whirled and splattered over everything nearby. It is the intention of the invention to pre- 'vent this happening. In doing this, we stop the motor automatically when the heaters are raised a certain distance and start the' motor again automatically when it is lowered past a predetermined level. I

Another object of the invention is to provide an improved transmission in which the heater shafts may be located or changed for manufacturing purposes through an arc of 90, i. e., they may be located square across the gear housing or they may be slanted as much as 45 either direction in diagonal positions.

ning bowl revolves more and more rapidly and the contents centrifugate up and over the edge of the bowl. In another case, the spin of the bowl is enough to centrifugate the major portion of thefood away from the rotary tools and lower their relative efiiciency. Although these have been controlled in different ways such as by imposing a drag upon the bowl this retards the mixing eifectiveness in the first instance and often in controlling the second instance, chang- (motor speed is accomplished quickly from the first shaft without worm gearing and the remaining the angle of the sides of the bowl which reing shafts may be journalled directly in die cast metal.

Another object is to provide an improved pivotally mounted gear housing wherein torsional and flexure strains are borne in an improved manner by a tie member or spanner serving also as a handle.

Another object of the invention is to provide an improved mounting for a motor wherein vibrations induced by a detachable gear housing are dampened and vibrations induced by the motor are transmitted to a detachable liquifying container to assist in the circulation of solid objects in the container.

Another object of the invention is to provide an improved motor unit interchangeable with different attachments including a motor casing which is cooled in an improved manner without transmitting heat to the attachments and gear housing.

Another object of the invention is to provide an improved arrangement between a motor de- Veloping heat in its operation and a gearing unit wherein the heat and lubricant viscosity in the gear housing is practically unaffected by heat developed in the motor.

Another object is to provide an improved speed governor and brush mounting for an electric motor and an improved blower having minimized noise characteristics at high speed for cooling the motor parts.

Another object is to provide an improved motor unit, an improved gear housing, an improved liquifier, and an improved interchangeable relationship between the gear housing, the liquifier and the motor unit.

Moreover, in the present invention an improved mounting for a food liquifying container and a handle therefor for ease in handling are provided and so constructed that the container cannot be dislodged inadvertently from its mounting on the motor or readily slip from the hands of one handling the container as when pouring further object, that this be done to a degree in" direct relation with the depth of the liquid in the container so that at low level the blades will froth the contents while at high levels the induced air content will be comparatively less.

Another object of the invention is to provide an improved oscillation control for moving rotating beaters back and forth in a mixing bowl.

Another object is to provide an improved shaft arrangement for driving heaters and a juicer.

A further object is to provide an improved juice catch whose outlet is normally beyond the edge of the bowl on the mixer base, with a flex ible non-corrosive tube attached thereto for directing the contents of the juice catch into any one of a niunber of containers Within the reach of the tube.

Another object of the invention is to provide an improved circuit interrupter peed control governor and control therefor which can be used in connection with a food liquifier.

Another object of the invention is to provide an improved drive connection which may be disengaged and engaged at will with-out any attention to pro-alignment, and with a wide tolerance for out of alignment conditions which might arise set or knocked over.

Another object of the invention is to provide a food processing device which is simple and rugged in its construction, efficient in its purpose and use, inexpensive to manufacture and easily operated and adjusted by persons inexperienced mechanically.

These being among the objects of the present invention, other and further objects will become apparent from the drawings, the description relating thereto and the appended claims.

Referring now to the drawings:

Fig. 1 is a side elevation of an embodiment of the invention illustrating, partly in broken lines, two different positions the heaters may be disposed in when the embodiment illustrated is placed in use;

Fig. 2 is a side elevation showing the embodiment illustrated in Fig. 1 as arranged and used when it is desirable to use the heaters at a point remote from the power unit;

Fig. 3 is a side elevation of the embodiment illustrated in Fig.1 as it appears when a food chopper attachment is employed therewith;

Fig. 4 is a vertical section through the power unit taken upon the line 44 in Fig. 1;

Fig. 5 is a horizontal section through the universal coupling between the gear housing and the motor unit as taken upon the line 5-5 in Fig. 4;

Fig. 6 is a vertical section taken through the power unit and a portion of the gear housing upon a plane running longitudinally with the gear housing as indicated by the line 6-6 in Fig. 4;

Fig. 7 is a horizontal section through the power unit near the topthereof as taken upon'the' line 77 in Fig. 6;

Fig. 8 is a horizontal section through the power unit as taken upon the line 88 in Fig. 6;

Fig. 9 is a vertical longitudinal section through the gear housing illustrating the preferred form of the invention including the means by which the gear housing is pivotally secured to the top of the power unit;

Fig. 10 is a horizontal section taken upon several planes through the overhanging portion of the gear housing as viewed from above;

Fig. 11 is a vertical section taken transversely through the gear housing upon the line I l--| I in Fig. 9;

Fig. 12 is a horizontal section through the gear housin as taken upon the line lZ-IZ in Fig. 9;

Fig. 13 is a vertical transverse section through a portion of the gear housing as taken upon the line l3l3 in Fig. 12;

Fig. 14 is a vertical longitudinal section through a portion of the gear housing shown in Fig. 9 as taken upon the line I l-4 tin Fig. 12;

Fig. 15 is a vertical longitudinal view through the gear housing and the top portion of the power unit illustrating another embodiment of the invention;

. Fig/16 is a sectional view of the front portion of the embodiment illustrated in Fig. .15 taken -vides an opening 48 mainly upon one horizontal plane with certain portions sectioned upon other horizontal planes;

Fig. 17 is a transverse section taken upon .the line I1-I1 in Fig. 16;

Fig. 18 is a view similar to Figs. 9. and illustrating another embodiment of the invention, namely, a vertical section through the gear housing and included therewith a slightly reduced section through the motor unit showing how the gearing housing is mounted for tilting movement;

Fig. 19 is a vertical transverse section of the gear housing illustrated in Fig. 18 as taken upon lines I9-l9 in Fig. 18;

Fig. 20 is a horizontal section through the gear housing illustrated in Fig. 18 as taken upon the lines 202ll therein;

Fig. 21 is a section taken in Fig. 20;

Fig. 22 is a side elevation similar to Fig. 1 showing the gear housing as constructed to receive a fruit juicing attachment thereon;

Fig. 23 is a transverse section taken upon the lines 23-23 in Fig. 22;

Fig. 24 is a horizontal section taken upon the lines 24-24 in Fig. 15 through the top of the power unit;

Fig. 25 is a side elevation of the power unit with a liquifier attachment in place thereon;

Fig. 26 is a vertical section through a liquifier attachment for the power unit taken upon a vertical plane coinciding with the axis of the power unit;

Fig. 27 is a section through the liquifier bowl taken upon the line 21-21 in Fig. 26;

Fig. 28 is a section taken upon the in Fig. 26.

In the present invention a food mixer is provided in which a base 30 has mounted at one end thereof a turntable 3| supporting a bowl 32 thereon, and, at its other end, an upright power unit 33 supporting at the top thereof a gear housing 34 carrying depending heaters 36 which extend down into the bowl 32 when the gear housing 34 is in its lowered position as indicated by the numeral 31, as distinguished from its raised position as indicated at 3B in broken lines. A handle for managing the gear housing is shown at 35.

As best shown in Figs. 4 and 6, the base 30 constitutes a die cast metal unit having downwardly depending flanges 40 with bosses 4| therein to receive rubber feet 42 that are secured thereto by machine screws 43. The base 3|] is webbed, as at 44, over the lower face thereof for structural rigidity, and at the front end is provided with a reamed boss (not shown) to journal the spindle 45 of the turntable 3|.

At its rear end the base is provided with an integral ring 46, preferably concentric with the housing 41 of the power unit. The ring 46 prolarge enough for the free exhaust of air therethrough employed in cooling the motor parts, and also to provide room enough to receive certain parts of the motor assembly for the sake of compactness. Diametrically opposite each other on the ring two drilled and threaded holes 50 are provided to receive the vertical assembly bolts 5| which hold the elements upon the lines 2 l--2l line 2828 of the power unit together as an assembly and also secure the unit to the base. The power unit 33 comprises a die-cast part having a shell 41 of a curvilinear, upwardly tapering contour which is open at the lower end,iwhere the marginal edge 53 is staggered toprovide openings 54 when the lower edge 53 is lowered against a member having a flat face.

The upper ends of the shell 41 are closed by anintegral horizontal wall 55, spaced from the upper edge 56 a slight distance to provide an upwardly opening cylindrical cavity 51.

At its center the wall is provided with a boss 58 structurally reinforced by radial webbing .60 which extendsto the sides of the shell 41 and downwardly as ribs or fins 6i integrally therein as a part of the inner edges of the fins 60.

The boss 58 is bored to receive, in supported relationship, a self aligning bearing comprising a washer 63 resting upon a shoulder 64 at the bottom of the boss and a bearing member 65 held in universal engagement with the washer 63 by a spring 66 placed under tension by a collar 61 threaded into the upper endof the boss 58.

An annulus 62 is cast integrally with the inner edges of the fins 6| and the annulus 62 is reamed to receive the stator 68 of the motor as limited by a shoulder 10 left in the reaming operation near the upper end of the annulus 62 at a place to locate the stator a predetermined distance from the end wall 55.

It will be seen from'the description thus far that the stator 68 when fit intov the ring 62 is brought into heat transfer contact therewith whereby heat developing in the stator is conducted directly to the reinforcing fins 61 and ribs 60. The inner contour 1| of the shell 41 is formed to provide a streamlined passageway for air flowing in through the opening 54 and upwardly over the fins6l to the top of the shell. From there the air passes radially inwardly with full freedom of movement over the upper end of the ring 62 where it is driven by the fan 12 mounted upon the armature shaft 13, downwardly and centrally through the stator 68 and outwardly to the outside again through the openings 48. At no time is the air stream in a position to contaminate food in the bowl and the airis in contact with the outside of the heated parts as'well as passing through them.

Atits lower end 52 the shell 41 is supported upon an intermediate member 14 comprising a plate circumferentially shouldered at 15 to receive end portions 53 of the shell 41. At its peripheral edge the plate is made solid to form part of the passageway ofthe cold air while at its center it is webbed, as at 16, to permit the downwardly passing air access'to the opening 48. The webbing at 16 is made of radial portions providing a spider supporting a bearing boss 11 at the center thereof somewhat similar in construction. to the boss 58 at the top.

The bearing boss 11- is reamed out from the bottom to leave a shoulder 18 at the top thereof which receives a compression spring which holds bearing 8| in universal engagement with a plug 82 threaded as at 83into the bearing boss 11.

In addition to supporting the bearing 8| the plug 8-2 supports, in adjustable relation, a ball end-thrust bearing 84 for the shaft 13.

The intermediate member 14 is in turn supported upon the shouldered washer 85, made of live rubber, which dampens the transmittance of all sound and vibration to the base 30 from the intermediate members 14 including the shell 41.

The washer 85 is' prevented from slipping sidewise by a shoulder 86 formed as a part of a recess 81 into which the washer is pressed upon the'upper surface of the base 30.

It has already been mentioned that the bolts 5| secure the shell 41 to the base 30. It is upon these bolts that the remaining motor parts, other than the armature, are supported as a unit and held in spaced relation by sleeves 88 and 89.

This unit comprises an improved brush gover-- nor un it made up of a pressed plate 90 composed of electrical insulating material which is apertured as at 9| to receive the bolts 5| and upon which the other parts are mounted.

As more particularly shown in Fig. 8 the plate 90 is circular with a large central apreture 92 to permit free circulation of air therethrough. Upon the upper side of the plate 90 at diametrically opposed points, U-shaped brackets 93 secure brush holders 94 in place by fingers 95 extending through the plate where bent over portions upon the lower side thereof clinch the brackets and holders in place. The brush holders 94 are tubular, being preferably made of brass with. an irregular outer contour preventing their turning when held by the brackets 93. The tubes 94 extend to the wall of the shell 41 where apertures 06 are provided to receive kerfed Bakelite caps 91. The caps 91 removably support brass disks 90 at the outer ends of the tubes where the disks provide an electrical contact between the tube 94 and the compression springs IOI which contact and hold the brushes I against the commutator I02. Electrical connections in the motor circuit are made through leads running to the brackets 93. This construction provides for a ready assembly and removal for the installation and repair of the brushes.

Upon the lower side of the plate 90 the parts of the circuit breaking centrifugal governor are mounted. The movable contact I03 thereof (see Fig. 6) is mounted upon a spring bar I04, which is aper tured as at I to encompass the shaft I3 and secured to the plate 90 as by riveting I06.

The contact bar I04 is moved back and forth in response to variations in the motor speed by centrifugal weights I01 pivotally mounted at I08 upon a plate II'0 press fitted or secured against the commutator I02. The centrifugal weights I01 are all shaped with a bell crank end portion I II pressing against an axially movable disk II2 having a ball bearing engagement with a follower II3 keyed against rotation by fingers II4 upon the contact bar I04. The train of elements just described are collapsed against the exercise of the centrifugal force mentioned by means of a compression spring II5 between the bar I04 and the bearing boss 11.

Beneath the contact I03 and cooperating therewith is a manually movable contact H6. The contact H6 is mounted upon a bell-crank I I! by a pivot pin I I8, carrying a torsion spring I urging the contact I I6 toward the contact I03. The limit of movement permitted the contact H6, and its adjustment is accomplished by means of a coarsely threaded shaft I2I extending through the wall of the shell 41, where it receives a handle I22 with an indicator I23 thereon. The shaft I2I and the pivot pin II8 are supported in a single metal stamping I24, riveted, as at I25, to the upper face of the plate 90.

The brush governor assembly thus described is neat and compact, the unit is readily assembled outside of the motor housing, and easily placed in the motor housing between the sleeves 88 before the bolts 5| are inserted in place, one cap i9 being inserted through one opening 96 before the other cap is raised to position, it being optional whether the brushes are assembled before or afterward.

In assembling the motor unit the casing or shell 4! is turned bottom side up after the selfaligning bearing 65 is assembled and secured in place. The bolts 5I are then inserted upwardly through cylindrical bosses I26 integral with the end wall 55. Adjacent the heads I2I of the bolts cylindrical rubber sleeves I28 are provided to fit in an enlarged recess I30 in the bosses I26. The sleeves are flanged radially, as 'at I3'I, to provide a vibration dampening washer-like member fitting snugly between the head I21 of the bolt and the upper face of the end Wall 55. The opening I32 in the boss I26 below the washer I28 is widened to receive the bolt with a wide clearance so as to prevent metal to metal contact at this point.

The stator 68 is then inserted in place and comes to rest against the ends I33 of the bosses E26 and the shoulder I0. The armature I3 is then lowered into place with the upper end lowered through the self aligning bearing 65.

The upper sleeves 88 are slipped in place to act as spacers for the brush-governor unit, and after the governor unit is located in place, the lower sleeves 88 are slipped over the ends of the bolts 5|, air flow control sleeves I34 being located upon opposite sides of the unit to prevent recirculation of cooling air inside the shell 47.

Thereafter the spider I4 is disposed in place; the vibration dampening washer assembled therewith, and the base 30 inserted to mate with the rubber washer 85 where it receives, in thread ed relation, the threaded ends of the bolts 5!.

After the bolts 5I have been tightened the motor unit and base are turned right side up to receive preferably the male member I36 of a quadrate universal joint. The male member I35 comprises a beveled element swaged on the armature shaft 13 as at I 31 (Fig. 6) to be driven thereby. The member I36 is provided with four radial faces I30 connected with tapering sides I40 running from the apex I4I of one radial face to the inner edge I42 of the adjacent trailing face. It is through this member I35 that the power of the motor is transmitted to the gear housing 34.

The member I36 drives a female member I43 carried by the gear casing 34 which mates with the member I38 with adequate radial clearances to allow for misalignment of the supporting shafts normally expected to occur in the manufacturing tolerances of the two parts. The radial faces upon the teeth of the male member face in the direction of rotation and the radial faces upon the female member face in the opposite direction to be driven by the first.

Although any number of faces may be provided, it is preferable to have four disposed at right angles to each other. In this way the universal action developed by an 'Ol'dham coupling is made available in a new and novel manner in food mixers. The faces mating between the members at all times permit free slippage radi ally without a binding that would interfere with the free movement required. Moreover the contour of the teeth as provided is such that the male and female members may be separated brought together with minimum interference in making the drive joint. The taper of the bevel is so designed in relation to the radial dimensions of the face that they permit arcuate engagem nt and disengagement with immediate mating with out interference between the members as they are moved relative to each other.

w The cavity 51 in the' top of the motor housing 31 is provided with a block I44 disposed at the Fig. 24, where it is flattened at the sides I50 (Fig. 4) to permit inclined downward'and rearward insertions of the lip I41 under the block I44 with minimum tilt.

At its front side the collar I48 is drilled as at I5I where it receives a snap latch I52 reciprocally mounted in a radial bore I53 disposed in the front of the wall of the cavity 51. The latch comprises a reduced intermediate portion I54 over which an inwardly flanged sleeve I55 is slipped with an expansion spring I56 acting between a flange I51 upon the sleeve and a shoulder I58 upon the latch to force the latch inwardly. The latch is controlled by a handle I59 swaged upon the outer end thereof after the sleeve and spring are assembled. The sleeve fits tightly in the bore and thereby holdsv the latch in latching position when once assembled in place. In this way the collar is locked in place in the cavity 51.

The inside contour of the collar I48 comprises an inwardly extending flange I60 providing upper and lower bearing surfaces I6I and I62 respectively grooved as at 163 to receive lubricant.

These bearing surfaces support against axial displacement and tilting, a head I64 following the contour of the upper surface I8I and inner surface of the flange I60 with a retaining ring I65 resting against the lower face I62 where it is held against the head I64 by-means of screws I66.

Thus, whenever the collar is inserted into and secured in the cavity as by the latch I52, the head is rotatable with respect to the motor unit.

In this embodiment, the gear housing is secured to the upper surface of the head by means of a hinge I61 and an upwardly extending locating eyelet I68 supporting a spring llll having a snap portion "I for holding the gear casing down against all but willfully applied forces that are intended to raise the gear housing and pivot it about the hinge.

Before describing the gear housing in further detail it may be Well at this time to point out that the head is provided with an arcuate slot I12 which receives a pin I13. The pin I13 is reciprocally mounted in the collar and urged by a spring I14 to an upper limit where the pin extends above the head. As best shown in Fig. 6, when the gear housing is lowered against the upper end of the pin, the pin is driven downwardly. The lower end of the pin controls a normally open switch whose one pole I15 assists the spring I14 in urging the pin upwardly. The switch I16 is connected in the motor circuit to stop the motor whenever the switch is open.

With this construction, whenever the gear housing is raised, such as when it becomes devII).

out

tage, the make and ,break switch prevents the food mixture, clingingto the beaters, from being thrown out over the edge of the bowl as the beaters leave the level of the liquid in the bowl when the beaterhousing is raised. This obviates dan'-.

gers .conventionally experienced with mixers which are not shut off when the housewife tilts the beaters to remove them from the bowl.

Referring now to the transmission, likenumbers will be used v to designate similar parts throughout the several embodiments as far as it is practical. In those instances where parts are similarin functions or results but otherwise are only slightly different in construction, they will be. identified by the same numeral but distinguished with respect. thereto by the use of prime marks.

Throughout the several views, the gear wheels have been shown with straight out teeth, for purposes of convenience, but in all instances we prefer to use curve cut teeth, such as helical teeth, for the sake of quietness, and in all cases where it is possible to provide a fiber or composition gear meshing with a metal gear.

The preferred embodiment of the transmission housing and gearing is shown in Figs. '9 to l4. Referring now to Fig. 9, a gear housing 34 is shown as made of three parts, the main housing I80, a front nose member IBI having an integral rearwardly extending portion providing a handle I82 which is secured at its rear end to the housing I80 by a screw I83, and a cover plate I84 for the bottom of, the main housing I80 which is secured sirable to remove the beaters from the bowl, the

inplace by screws I85.

Although the gear housing 34, as an assembled unit, may be Constructed in more than three parts, we prefer the construction shown wherein a minimum number of parts can be die cast; annealed to remove stress, and machined with little, if any, danger of misalignment in bearings and clearances. The parts provided ar so constructed and arranged that only two pull-out dies need be used in the casting operation of the main frame I and only one pull-out die need be used with any of the other parts.

Moreover, the gear housing 34 is designed so that the major portion of the machine operations thereon may be performed in two planes and the material and openings are so distributed and formed that adequat clearance and head room for the assembly and operation of the gears and shafting may be had to the best advantage.

Referring now to the main housing I80 as though the top were the back and the bottom the front thereof, following the die casting terminology, the back of the housing is provided with a depression I86 for the reception of the fingers of a persons hand in manipulating the handle I82. Both the handle I82 and the housing I80 are recessed and conformed at the end thereof and held by the screw I83 along the line of -juncture I81 to provide a flush joint having a smooth outer contour which fits in with the streamlining of the housing as designed to provide a pleasing appearance.

Viewed from the front, the casting is somewhat cup-shaped with transverse partitions therein of different heights connecting the sides. and with upstanding studs between the sides to the right of the center of the housing, as viewed in Fig.- 9.

The margins of the cup-shaped portions in the housing are recessed to receive the edgesiof the cover plate :84 and the top butt plate I88'of the hinge I61. Therearmost I90 of the studs is that journals the shaft I93 carrying the female member I43 of the universal joint. The bearing I92 is press fitted into the bore I9I and the overall length of the stud I99 is such as to ace.

commodate a pinion gear I94 between the ends of the bearing and the female member I43.

The pinion gear I94 comprises helical gears I95 upon the. upper sidethereof and a reduced cylindrical portion I96 at the lower end thereof divided from the teeth I95 by a .radial flange I91 having a squared shoulder I98 on the bottom thereof. The upper end of the female member I43 is secured to the shaft by the set screw I99 and is squared tov provide a shoulder 290 oppose ing the shoulder I98 in a manner providing a groove therebetween in which a grease seal or packing ring MI is located.

In cooperation with the grease packing ring and the shoulders I98 and 29.0, the cover plate I84 is die cast to provide a cylindrical portion 202 holding the, grease ring 29I in place. A shoulder 293, through the cooperation of the pack.- ing ring supports the Shaft I93, and the parts assembled thereto against inadvertent removal rom. the hous n The helical teeth I99 have only aslight angle, either right or left, depending upon the direction of rotation of the armature and the angle is turned to provide an end-thrust which will. carry the weight of the Shaft I93 under normal .opere ating conditions. When the gear housing is lowered the weight of the shaft I93 and assembled parts is borne also, in some, measure, by the male member I 99 which in turn is supported against thrust loads at the bottomv of th armature. shaft by the ball 84.

With this arrangement there is, enough freedom of m nt g tudinally between the shafts to permit to them their best cooperation without vibration and binding, and, in V ew of for the press fit and a shoulder 2Ij0 which limits the depth to which the shaft may .be forced into place. The exposed surface of the shaft 2,I I provides an axle which is machined to receive a gear wheel 2 I2 rotatably thereon and the wheelis held in place by a cap screw 2I3 threaded into the end of the axle. The Wheel comprises a beveled gear 2 I 4 having a hub 2 I 5 upon which the helical gear 2I2 is press fitted to mate with the drive gear I95 upon the shaft I93.

For purposes of lubricating these parts and also for purposes of strengthening the cover plate I84, the plate is die cast with a transverse channel 2 IS in which, lubricant may coll dt and be picked up between the lower end of the hub 2I5 and the head of the cap screw 2I3, the head of the cap screw. resting against the bottom of the channel and the bottom of the channel resting against the collar I64 on top of the motor housing. This construction and arrangement not only provides a means for lubricating the gear 2 but also provides a direct and solid support point for the weight of the housing overhanging the bowl 32.

Upon its left side, as viewed in Fig, 9, the stud is fastened, as at 2I1, to provide clearance and head room for a beveled gear' 2I.8 driven by the beveled gear 2I4. The mounting of the gear 2I.8 is accomplished by securing it to the rear end of a horizontal shaft 22.0 inserted from the left end of the housing, the shaft 220 extending. through three cuts after having been inserted through a fourth.

For a better understanding how these cuts are made, it would be well to refer now to theleft end of the housing I80, where it will be seen .from Figs. 9, 10 and 11 that in front of the partitions 223, two vertically spaced horizontal chambers 225 and 226 are made by a die withdrawn from the front of the housing to leave a thick horizontally disposed shelf member 221 therebetween. The rear boundary of these chambers and also the rear wall of the shelf 221 are determined by a. vertically withdrawn die which leaves the chamber 228 opening upon the front end of the cover plate I84. Upon opposite sides. of the shelf 221, namely, above and below it the other cross members 229 are provided, as best seen in Fig. 11, parallel to the shaft and integral with the main housing.

The nose I8I, broadly speaking may be said to be severable from the front end of the housing I80 along the plane indicated by the line 230. With the nose removed, the journals for the shaft 220 are provided by a drill and reamer operation which cuts through the support 221 to provide a bore 23I therein, which, after the shaft 229 is inserted, receives the reduced shaftportion 23,2. of the power take-off head 233 upon which is supported a larger gear 23.4.

The bore 23I is first drilled with a step feed operation clearing the chamber 228., after which the journals HI and 222 are drilled in rapid succession. If desired, the journal 23' I ma v be enlarged by reaming or burnishing to a diameter slightly larger than the bores 22! and 222 so that the shaft 220 may be slipped very easily into place.

It will be noted that the shaft 220 is journaled directly in the die cast metal in the preferred embodiment. This arrangement is made possible because the maximum shaft speed at this point in the gear reduction is Within the safe speed for shafting journaled in die cast metal. Moreover, the shaft is comparatively short and the area of the bearings comparatively large. In this way by providing a large, speed reduction up to the shaft 220, the gear housing has power transmitted to its forward position by means of a. construction which is simple to machine and install.

The shaft 220 carries, upon its front end, a beveled gear portion 235 tapering toward the front, and a heavy helical gear 236 upon the rear portion thereof, an Allen screw being indicated at 231 for locking the gear on the shaft.

In mounting the gear 235. in position upon the shaft, the gear 235 is inseI-tedfirst into, chamber 228 in axial alinement withthe bore 2,3I after which the shaft 220 is inserted therethrough, and moved rearwardly. into the gear 2 I8 over the last portion of its. movement, after which the gears H8 and. 235] are locked in place. Suitable oil holes 238 are provided to assist in lubricating the shaft 220.

Two other shafts are journaled in the partition 22,3 and the, shelf 22.1. to comprise a heavy. gear reduction train driving the power take-off shaft 2.33. These shafts are best shown in Fig. 10 wherein an, intermediate shaft 241- disposed slightly. above and to one side of the shaft 220,

(see Fig. 11) is either journaled or press fitted into bores 242 and 243 machined, respectively, in the partition 223 and in an upstanding ear 244 upon the shelf. In event the shaft 24I is press fitted into place, it journals upon its mid portion a reduction gear wheel 245 driven from the teeth 236, upon the gear 235.

The gear 245 carries spur gearing 246 which in turn drives a large gear 241 mounted upon a shaft 248. The shaft 248 extends beyond opposite sides of the shelf 221 and partition 223 and is journaled therein below and to one side of the shaft 24I where it carries, upon its front end, a spur gear 258 engaging the gear 234 upon the power shaft. At the rear end of the shaft, a worm 25I is mounted to drive a worm wheel (see Fig. 14) 252 journaled upon a headed stud 253 threaded into a lug 254 and disposed behind the partition 223.

The gear 234 is press fitted upon the head portion 233 of the power shaft, as already mentioned, and is grooved as at 255 upon the front face thereof to receive a fiber grease seal 256 in a manner mating with a corresponding groove 251 upon the rear face of the removable nose I8I so that grease in the gear chambers will not seep into the power take-off socket. In assemblage the power take-off shaft and gear 234 are the last to be inserted before the nose I8I is inserted in place, after which the nose IBI is secured by recessed bolts 258 threaded into the shelf 221 as at 218, the nose being held in lateral registry by a tongue and groove relation, as indicated at 26I (see Fig. 12). The gearing upon the gear wheel 234 is beveled in a direction to create a slight end thrust forwardly upon the gear wheel 234 in a manner compressing the fiber washer 256.

Returning now to the worm drive 251 on the shaft 248, the worm driven wheel 252 has secured to the bottom thereof a bracket 262 provided with a horizontal portion 263. The horizontal portion has a longitudinal groove 264 therein, the sides of which engage the squared reduced portion 265 of a bolt 266 which in turn extends downwardly therethrough to receive a clamp nut 261 thereon at its lower end. A shoulder 268 upon the clamp nut supports the forward end of an oscillating arm 218 above it upon a reduced journal portion 21I. A washer 212 cooperates with the shoulder 268 to hold the ends of the arm 218 in position and the reduced portion 21I is axially wider than the thickness of the arm 218 so that manipulation of the nut 261 at no time interferes with the journaled relationship between the arm and the reduced portion 21I. With this construction, the bolt serves as a pivot point for the arm 218 and may be adjusted and secured at any position along the slot 264.

As shown in Fig. 14, the bolt, 266 is located at one end of the slot where it is coaxial with the axis of rotation of the wheel 252 that supports the bracket. In this position the gear housing is held stationary during operation.

As shown in Fig. 14 the rear end 213 of the arm 218 is apertured as at 214 to fit over a stud 215 riveted to the collar I48 where the stud 215 extends upwardly through an arcuate slot 216 in the bearing ring I64. This provides a fixed thrust point for the rear end 213 of the arm 210.

Thus, as the nut 261 is adjusted in the slot 264 to a position off-center the wheel 252, the gear.

housing will be caused to oscillate on the bearing ring I64 with an amplitude that can be set and changed through adjusting the relative position'of the stud 215 in relation to the location of the bolt 266 as respects the axis of the shafts Two embodiments of the stud and arm relationship are shown in the drawings. In Fig. 4 an embodiment is shown Where the arm 210 is positioned above the cover cap I84 where it is urged downwardly to fit over the stud 215' by compression spring 211 carried by a cap bolt 218 so that whenever the transmission housing is raised and lowered the arm 218 is engaged and disengaged readily with the stud 215.

In Fig. 14 the arm 210 is shown as located below the cover cap I84; Also, the stud is carried by the arm and drops through the slot 216 into a hole 28I in the collar 266.

In both instances, disengagement between the arm 216 and the collar I68 may also be had while the heaters are in their lowered position so that the heaters may be oscillated in the bowl by hand instead of automatically whenever desired. The means for accomplishing this is a knurled handle 282 upon the side of the transmission housing. The handle operates a shaft 283 which carries a lifter 284 and as shown in Fig. 14 the lifter engages a flange 285 upon the end 213 of the arm 218. In its lowered position the lifter 284 supports the rod whenever the transmission housing is raised, thereby serving as a means for carrying the stud 215 out of the engagement 28I when the transmission is raised. Whenever it becomes desirable to oscillate the heaters manually the knurled handle 282 is-rotated a half turn and the lifter 284 acting upon the flange 285 raises the stud 215 out of the hole 28I, at which time the flattened lowered face 286 of the lifter engages the lower face of the flange 285, and this engagement is maintained by the flatness until the handle 282 is manually returned to its original position.

In order for the arm 218 to extend below the cover cap I84, in the preferred embodiment of the invention, the cap is die cast with anupwardly flanged opening 281 around the bracket 262, The opening is contoured to permit movement and access to the parts involved in adjusting the oscillation of the gear housing and the flanged portion 288 serves to prevent grease in and around the gear wheels from leaving the compartment.

Thus, the heaters may be oscillated automatically or by hand, back and forth across the center of the bowl as desired and in event the oscillation is made automatically, the extent of the oscillation can be varied for bowls of different sizes, readily and conveniently. The particular adjustment provided moreover can be made while the heaters are running. I

Presupposing that the transmission is oscillating, the operator merely loosens the knurled nut 261 and moves the transmission to its center position, after which the nut can be tightened without further ado and the beaters are held to rotate about fixed axes. Then when it becomes desirable to adjust the degree of oscillation of the transmission, the nut is again loosened. As the wheel 252 rotates, the transmission housing can be pressed sidewardly so that there will be a feel of the gradual yield of the bolt 266 in the slot 264. When the desired limit of the yield is reached, the nut is tightened. Thereafter, the oscillation of the heaters will follow from that limit to another corresponding limit upon the opposite side of the center of the bowl, it never being necessary to raise the transmission and look under it to make the oscillation adjustment or vary the degree thereof.

With regard to the rapidity of the oscillation we prefer and have so provided a speed approximating ten oscillations a minute. With this speed, and constructions, the heaters are disposed proximate the side of the bowl in one position long enough to move the bowl on the turntable and thereafter the heaters are accelerated past the center of the bowl toward the opposite side for a dwell of sufficient duration to start the bowl rotating in the opposite direction. The timing is such that the bowl will become stationary while the heaters are passing over the center thereof. The beaters thereby never oppose the mix' in the bowl'but work with it to a better advantage than heretofore accomplished where spindles of conventional constructions have a tendency to centrifugate the liquid outwardly over the sides.

The beaters are driven from the beveled gear 235 by a transmission arrangement readily adaptable to permit structural changes whereby the heaters may be located in a plane transverse to; the transmission housing as shown in the preferred embodiment in Fig. 11, and, in the manner whereby the load upon the beveled gear 235 is balanced upon both sides of the journal 221.

More particularly the housing 34 is drilled vertically from the bottom thereof along an axis intersecting the bore of the journal 231. This operation provides a vertical bore 300 in the lower cross member 229, a similar bore 301 in the shelf 22! and a bore 302 in the upper cross member 229.

Two stud shafts 303 and 304 are press fitted into the bores 302 and 300, respectively, from the outside and terminate in the bore 301 with sufficient clearance to permit the shaft 232 of the power gear 234 to rotate in its journal 231 between them. The stud shafts 303 and 304 carry, in the compartments 225 and 2215, gears 306 which rotate in opposite directions upon the stud shafts 303 and 304. The two gears 306 are identical, each having a beveled gear portion 30'! driven from the beveled gear 235 and are provided with helical gear teeth 308 which drive the shafts supporting the beater elements through gears 310 mounted upon the beater driving shafts.

Referring particularly to Fig. 9, the beater shafts are indicated by the numeral 311 and as shown sectionally in Fig. 11 are provided at the upper end with a slot 313 which receives a latching, spring 314 secured in the slot by deforming the body portion of the beater shaft near the lower end of the slot as at 315 to hold the spring in place.

The upper end of the spring is curved outwardly as at 316 to provide a latching portion extending outwardly beyond the contour of the shaft 3 to engage in any one of the four notches 311 provided in the upper end of the beater supporting shaft 318 by cross kerfs cut therein. These structural characteristics are also shown in Figs. 19 and 23.

In Fig. 11 the shaft 318 is shown as constructed when the food mixer is designed to have a fruit juicer driven by power derived from other than one of the beater shafts, whereas, in Fig. 23, a construction is shown whereby the fruit juicer is. mounted and driven with respect to one of the beater shafts.

In Fig. 11 the shaft 318 is shorter to receive the shaft 241 over the top thereof for purposes of compact assembly,

The shaft 318, which is the longer of the two shafts, extends up into the compartment 225 where it receives one of the gears 310 which is in mesh with the gear 306 mounted uponthe stud shaft 333. The other of the gears 310 is mounted upon the shaft 313' where the shaft passes through the compartment 223. The other of the gears 310 is in mesh with the gear 308 mounted upon the lower stud 304. In both mountings, the hubs 320 of the gear 3l0 are designed to clear the beveled gearing 301 upon the gears 306. In this manner a very compact assembly is provided for the gear and shaft units involved in the beater drive mechanism.

The shafts H8 and 318 may be located in a plane transverse to the axis of the shaft 220 as shown in Fig. 10, or they may be located in a plane disposed at an angle to the shaft 220 as shown in Fig. 20, it being appreciated that the casting and drilling of the stud and bores for the shafts 318 and 318' may be rotated bodily about the axis of the stud shafts 303 and 304 without disturbing the gear arrangement described. In this way the particular gear arrangement disclosed is readily adaptable to changes in the relative location of the beater elements 36 in the bowl, depending upon whether it is desirable to oscillate the beater elements in the bowl through coinciding arcs or through concentric arcs geometrically spaced from each other so that one beater passes to one side of the center of the bowl while the other beater passes over the center of the bowl as the transmission is oscillated back and forth above the bowl.

In the particular embodiment shown in Figs. 9, 10 and 11, it has already been mentioned that the shafts 3'18 and 318 lie in a plane transverse to the axis of the shaft 220. In disposing these shafts in this position, bosses 321 are cast in the body portion of the transmission housing upon the lower side thereof and are drilled at 322 to receive bronze bearing sleeves 323 therein which are burnished to size. Openings 230 are internally threaded as at 324 to receive gland nuts 325 which hold the shafts 318 and 318 in position with a. grease gland packing 326 disfruit juicer is driven coaxially from one of the beater shafts. In this instance, both beater shafts 318 and 318' are of the same length, both terminating flush with the bottom wall of the compartment 225. In this embodiment, the upper of the two gears 310 is mounted upon a third shaft 32'! as by a rotary lock slip engagement 328 such as a key lock. The lower end of the shaft 321 is hollowed as at 330 to receive and provide head room for the upper end of the beater shaft 311. Radially spaced prongs 331 extend downwardly and are provided thereon to engage in two of the kerf slots 31'! in driven relationship therewith. The upper end of the shaft 321 is drilled out as at 32 to receive the lower end of the reamer shaft 333. Axially located slots 334 are provided upon the upper end of the juicer shaft 321 to receive the pressed radial flanges 33-5- carried by the reamer shaft 333. The slot and flange relationship, just described, provides a driverelationship between the juicer shaft 321 and the reamer shaft 333, and also supports the reamer shaft against pressures borne thereby I it is preferably formed with an arc of a greater radius than the distance between the lower part thereof and the pintle of the hinge I51. At a predetermined point, a shoulder 372 is provided on the spring I'Hl to engage with the shoulder 3T3 upon the base plate to hold (see Fig. 1) the gear housing in raised position with the beaters as shown at 36 when the housing has been pivoted upwardly above the hinge 167. A reverse bend 3'54 at the upper end of the spring has a downwardly facing shoulder 315 thereon which engages with the shoulder 37% upon the base plate to prevent too wide a pivotal movement of the transmission. 1

The transmission is shown raised in Fig. 6 where also a means is shown as provided for releasing the latch in those constructions where the shoulder 3'52 upon the spring H is not fashioned to be releasable automatically under a downward pressure upon the transmission. This construction comprises a lever 33!! pivoted to the base plate at BBI to press against the front end of the spring I'll when the transmission is in raised position. The top of the lever 380 extends through the top wall of the transmission where it receives a head 3B2 below the handle at a place where it can be easily moved by hand to release the spring whenever it is desirable to lower the transmission. In this way a very simple construction is provided for quickly raising and lowering the beaters with regard to the bowl.

The location of the head 332 is where it can be reached and pressed by the little finger of a hand taking hold of the handle to move the transmission downwardly. Moreover, the particular construction illustrated is one well adapted for automatic support for the transmission where certain users or types of users may require either hand or automatic to the exclusion of the other.

Referring now to Figs. 18, 19, 20 and 21, an embodiment is shown wherein the transmission may be oscillated relative to the motor housing yet is otherwise rigidly secured relative thereto with regard to raising and lowering the beaters in the bowl. In this embodiment the motor and transmission pivot about a horizontal axis proximate the plane of the base. In this particular embodiment also the power take-off shaft 232' is shown driven by a worm reduction from one of the beater shafts, a construction possible with the transmission shown because of the unique structural characteristic, that the beater shaft can be located in any plane with respect to the axis of the shaft 220".

In this particular embodiment the rotatable collar I54 is secured by the screws 352 holding the retaining ring Hi, the collar lfit', the base plate Hit and the housing together as an integral unit. This construction permits the trans mission to oscillate relative to the motor and in providing this a worm-383 is mounted upon the shaft 223" to drive a worm wheel 384 journaled upon a headed bearing lug 3B5 press fitted into a bore 386. The worm wheel 384 carries a slotted yoke 262 similar to that shown in Fig. 14 and the corresponding parts are here indicated by corresponding numerals.

In this particular instance, however, the thrust arm 21s is located inside the base plate 184',

with an opening 38'! accommodating the adjusting nut 25? and having upturned edges 383 therein to retain the grease inside the compartment. A slide plate 396 is mounted upon'the stud 25:3 to slide back and forth overthe upturned edges 388 so that foreign matter will be kept out of the transmission as well as grease kept in the transmission.

Adjustment for oscillation in this instance is identical as shown in the embodiment illustrated in Fig. 9, and the thrust arm 210' raised and lowered in the manner shown in Fig. 4 by a handle 232 operating a cam that raises and lowers the thrust arm 2W to disengage the stud 215' from the opening Hi. In this instance, however, as already described the opening is upon the thrust arm 2'10' and the stud is secured from the collar let, a slot Zlfi being provided to accommodate relative movement between the supporting collar and the ring during oscillation. Referring now to the manner in which the embodiment shown in Fig. 18 is raised and lowered with respect to the bowl, an automatically releasible spring 4435, somewhat similar to the spring l'ill, is mounted upon the base 30. In this instance, however, the spring 406 is bent inwardly arcuately with regard to the pivotal axis 408 rather than outwardly so that when excess pressure is brought to bear against the transmission to lower it the spring buckles to tilt the retaining shoulder 312' in a direction releasing the motor casing and permitting the beaters to be lowered into the mix.

In this construction, the bolts 5! are received in the spider and the switch stopping the motor is mounted in a housing 498 upon the base 30 with push rod 409 employed to close the contacts only when the rim M0 of the spider is lowered in place.

Referring to the worm driven power take-off shaft 232', the left'hand beater shaft 6H, as viewed in Fig. 19, is disposed farther forward than the right hand beater shaft enough for the worm M5 upon the power take-oil shaft to clear the beveled gears 36?.

In providing the construction shown, the beater shafts carrying the beaters are the same length and have the gears 3H1, which drive them, located at the same point upon them except that the gears have their hubs extending in opposite directions, namely, one up and one down. The beveled gear 235' upon the shaft 220 drives two identical gear members 30'! rotatably upon a single stationary stud shaft 4". In this instance, however, the identical gear members have the beveled tooth portion 388 inside the gear instead of outside thereof and the beveled portion is of a size small enough to clear the driving gear 234'.

' The beater shafts are driven from the two beveled gears 3H) and below the gear upon the left beater shaft 3| I' a worm H8 is secured to the beater shaft in driving engagement with the worm wheel 4H5 upon the power take-ofi" shaft. Although the power loss is much greater with worm gearing than with spur beveled gearing, this particular construction lends itself to driving light power attachments. In fact. this particular construction is well adapted for use with mixers sold with few if an power attachments to be used therewith. The speed of the shaft 220" is ver low and the gear housing is provided in one single compartment accessible from the front. In assembly, the gear 235' is inserted and locked on the shaft 220" before the shaft 220" is slipped into place and the single stud shaft is next in serted with the driven gears located in mesh with the beveled gear 235'. After this the beater shafts are assembled in predetermined relationship to interdigitate the beaters ready to receive the nose of the handle portion. The power take- 

